KR20180034410A - Container Locking Device and Method - Google Patents

Abstract

The present invention relates to a fastening apparatus and method for stably holding a container (16). The first container stack 14 is secured through a first securing device 18 extending from the container edge 12 to the first connection fixture 19 of the container transport. Is fixed through a second securing device (20) extending from the container edge (13) of the second container stack (15) toward the second connection fixing part (21) of the container transport. At this time, the interval between the container edges 12, 13 is wider than the interval between the connection fixing portions 19, 21. According to the invention, two securing devices 18,20 intersect a vertical surface 23 extending along the transverse gap 22 between the two container stacks 24,25, The spacing between the sides 19, 21 is smaller than the vertical plane 23 and the container edges 12, 13. The present invention provides a securing device capable of a wider control range.

Description

Container Locking Device and Method

The present invention relates to a fixing device for stably fixing a container. The apparatus includes a first container stack and a second container stack. The first container stack is fixed through a first lashing unit extending from the container edge to the first connection fixture of the container transport. The second container stack is secured through a second securing device extending from the container edge to the second connection securing portion of the container carrier. The interval between the container edges is larger than the interval between the connection fixing portions.

When the container is transported to the ship, a plurality of containers are stacked on top of each other. The container must be secured to ensure that the container stack remains stable to the ocean wave. Generally, this fixation of the container involves direct connection to a so-called twistlock. Four container edges overlapping each other in the two containers through the twist lock are connected to each other. Such a twist lock suppresses the cases where the containers can slide in the horizontal direction and can be separated from each other by a force affecting the upper vertical direction.

Of course, it is of course also possible to provide a fixing via the above-mentioned twist locks in order to surely suppress the horizontal deformation of unacceptable horizontal lines which may occur at the door or the front side of the container stack, All these cases can not be satisfied sufficiently. In particular, in the case of an increased container stack in which a large number of containers are stacked, they are additionally fixed via a lashing unit, which is fixed between the container stack and the connection fixture of the container transport.

A screw fixture is provided for securing the securing device, which is intended to provide a longitudinal deformation of the securing device. In particular, when the securing device has a wide adjustment range, interference may occur between the screw fixing devices of two adjacent securing devices. Therefore, the screw fixing device can not be operated further because interference occurs with another securing device.

An object of the present invention is to provide a container holding device and method for stably fixing a container capable of expanding the control range of the securing device.

The above object of the present invention is solved by the features of the independent claims based on the foregoing prior art. Preferred embodiments are subject of the dependent claims.

In the fixing device according to the invention, the two securing devices cross the vertical plane, and the vertical plane extends past a transverse gap between the two container stacks. In the two securing devices, the distance between the vertical surface and the connecting fixture is smaller than the distance between the vertical surface and the container edge. Preferably, the interval referred to last, i.e. the coefficient 2, preferably the coefficient 4, particularly preferably the interval exceeding the coefficient 6, is wider than the interval mentioned at the beginning.

The transverse gaps are hollow spaces inserted between the longitudinal walls of two container stacks directly adjacent to each other. A vertical surface extending longitudinally along the transverse gap generally intersects the extension of the transverse gap. The vertical surface is preferably arranged in the middle of the lateral gap. In the scope of the present invention, the transverse gap always means such a transverse gap that is closer to the connecting fixture than the container edge. This lateral gap is preferably centered between the first container stack and the second container stack.

 According to the invention, containers can be further superimposed between the securing devices by the two securing devices crossing the vertical plane. This additional overlap, which increases the complexity and thus appears to be undesirable at first glance, provides space in the transverse direction, and this space can be used for a screw fixture. The adjustment range of the screw fixing device and the securing device is provided longer, and the screw fixing device does not collide with the adjacent securing device.

The two securing devices may be respectively connected to the lower edge of the container of the container. Particularly, this is preferable when the securing device is not connected to the upper edge of the container lying under the container.

Particularly, in a double lashing where two overlapping container edges are secured through a securing device, it may be desirable when the securing device is respectively connected to the upper edge of the container.

It can not be excluded that one of the securing devices is connected to the upper edge of the container and another securing device is connected to the lower edge of the container.

In the above-described double lashing, in total, four securing devices and four attached fastening portions are provided. The first and second connection fixtures form a first pair of connection fixtures and the second and third connection fixtures form a second pair of connection fixtures.

As discussed above, two securing devices, including a superposition of vertical surfaces, extend from the first pair of connection fixtures to the first container stack and the second container stack. The third and fourth securing devices extend from the second pair of connection fixtures likewise to the first container stack and the second container stack. The third and fourth securing devices are likewise connected to the second pair of connection securing means so that one or two securing devices cross the vertical plane.

According to a particularly preferred embodiment, the third securing device and the fourth securing device do not intersect the vertical plane. Preferably, the third securing device and the fourth securing device may be respectively connected to the lower edge of the container. The first securing device and the second securing device may be connected to the upper edge of the container lying at the bottom of the above-described container.

The two connection fixtures corresponding to the first pair are preferably arranged at different longitudinal points. Thereby, the first securing device and the second securing device can run side by side without interference. The connection fixtures corresponding to the second pair can likewise be arranged at different longitudinal points. According to a particularly preferred embodiment, the connection fixtures corresponding to said second pair are arranged at the same longitudinal point. Only the two connection fixtures corresponding to the first pair are moved in the longitudinal direction with each other so that the four connection fixtures occupy only a small space in the longitudinal direction.

In order to maintain the connection range tightly in the longitudinal direction, it is preferable that the connection fixing portions are arranged close to each other as far as possible when viewed from the longitudinal direction. Preferably, the four connecting fixtures extend longitudinally so as not to exceed a total of 50 cm, preferably 20 cm.

Further, in order to keep the connection range tight, it is preferable that all the connection fixtures are arranged in the same horizontal plane. Each of the connecting fixtures includes a bore, and the bolts of the securing device for fixing the securing device to the connecting fixture can pass through these bores. The bore has a diameter of, for example, 3 cm to 8 cm. The bores of the four connection fixtures can be placed in a direction parallel to each other. Preferably, the bore extends in the longitudinal direction.

If the third securing device and the fourth securing device do not intersect the vertical plane, an advantage of the adjustment range is that the second pair of connection securing portions are spaced apart from each other as much as possible in the transverse direction. The transverse spacing is preferably less than 30 cm, particularly preferably less than 20 cm, particularly preferably less than 10 cm. If the connecting fixture comprises two bores parallel to one another, the numerical designation is indicated in relation to the spacing between the bore axes. The lateral direction is a direction in which the lateral gap is cut in the vertical direction. The longitudinal direction is a direction parallel to the lateral gap.

The first pair of connection fixtures may have a wider spacing in the transverse direction than the second pair of connection fixtures. The wider the gap, the more space is provided in the lateral direction. On the other hand, the lateral spacing should be chosen not to be large enough to cause the screw fasteners of these two securing devices to collide with each other when the first securing device and the second securing device operate. The lateral spacing between the two connection fixtures of the first pair can be wider than the lateral spacing between the two connection fixtures of the second pair, for example a factor of 1.2 to 4, preferably a coefficient of 1.5 to 3. For example, an interval of 20 cm to 50 cm may be provided.

In all modified versions, the second pair of connection fixtures may be arranged symmetrically with respect to the transverse gap. The first pair of connection fixtures may have the same spacing with respect to the center of the transverse gap as viewed from the transverse direction. As viewed from the longitudinal side, the first pair of connection fixtures may have a greater spacing over the container stack than the second pair of connection fixtures.

The container stack is composed of a plurality of containers each of which is overlapped with one another. The container may be a standard container used worldwide in the container trade. All containers have a total of eight container edges designated, and these container edges enable unified use and fixation of the container. Because the containers in the container stack are preferably arranged in overlapping relation to one another in the vertical direction, the bottom corners of the four containers of the top container may rest on the four container top edges of the containers arranged below the top container. Since the two container stacks are preferably arranged at the same longitudinal point, the front surface of the container stack can be placed on a common plane. The securing device is preferably connected to the front of the container. The flat surface of this front corresponds to the lateral direction.

The first container stack and the second container stack may be arranged on the dock cover of the container transport. The container stack may include, for example, five to fifteen stacked containers. The securing device according to the present invention may be connected to, for example, the fifth or sixth container, and the containers are numbered from the bottom when the container number is given inside the container stack. Especially in a two container stack, one of the securing devices can be connected to the bottom edge of the container of the sixth container, while each other securing device is connected to the container top edge of the fifth container.

The arrangement of the container stack according to the present invention may be provided such that the first container stack and the second container stack are arranged directly side by side. In this case, the securing devices may each extend across the front edge of the container stack and across the opposite vertical container edge (inner lashing). The transverse gap intersected by the first securing device and the second securing device is a transverse gap between the first and second container stacks.

With respect to the optional arrangement of container stacks, the first and second container stacks according to the invention comprise two further container stacks between said container stacks according to the invention. In this case, each securing device extends across the front of one of the two container stacks contained (outer lashing). The transverse gap intersected by the first securing device and the second securing device near each of the connection securing means is a transverse gap between said another two container stacks.

The invention also relates to an arrangement of container stacks in which at least two, preferably at least three and particularly preferably at least four are arranged side by side, . At this time, the connection of two securing devices to the front is applied to all the corresponding containers.

The standard container to which the present invention is applied is provided with a container having two different heights, i.e., 8ft., 6inch and 9ft., 6inch height. The deviation of these two heights is 1 ft., Approximately 305 mm. The container stack according to the present invention may have a significantly different height depending on the extent to which small or large containers are stacked together. The deviation between the smallest deformed shape (five small containers overlapping) and the largest deformed shape (five large containers overlapping) is 5 x 305 mm = 1525 mm. This height deviation must be able to be corrected through the securing device according to the invention.

According to the present invention, a single type for the securing device can be provided, which allows all container stacks from the smallest deformed shape to the largest deformed shape to be covered. The superposition of the securing device according to the invention can be advantageously applied, in particular in the least deformed form. The securing device comprises a small angle in the horizontal direction, which results from the result that the adjustment mechanism extends in the horizontal direction. In such a configuration, collision may occur with an adjacent securing device if the securing device according to the present invention is abandoned.

The securing device preferably includes a first fastening means for fastening to the container edge and a second fastening means for fastening to the connection fastening portion of the container transport, respectively. The first fastening means may be formed as a hook locking, and the hook fastening portion is inserted into an opening of a container edge. The second fastening means may be formed as a fork part. The fork portion is guided through the connection fixing portion and connected to the connection fixing portion through the socket pin so that the connection fixing portion can be fastened.

The two fastening means are formed such that a threaded part, a clamp screw, and a tie rod can be extended between the fastening means described above. The threaded portion is preferably firmly connected to the fork portion. The threaded portion may extend from a center of the fork portion. According to a particularly preferred embodiment, the threaded portion is arranged eccentrically to the fork portion. Generally speaking, the fastening portion of the securing device indicating the container edge direction is eccentrically connected to the fork portion. In particular, the fastening portion may start from an eccentric point and slide parallel to the socket pin direction. Thereby, when the connection fixing portions are not moved in the longitudinal direction with respect to each other, two securing devices are provided so as to pass along side by side.

The tie rod may be connected to the hook fastening portion and the hook fastening portion may have a plurality of mounting points so that the distance between the front surface of the container and the tie rod can be adjusted. The tightening of the tie rod and the threaded portion can be performed through the clamp screw. The clamping screw is preferably connected to the threaded portion in a thread engagement manner and rotatably connected to the tie rod. When the clamping screw is fitted to the threaded portion, the tie rod is pulled in the threaded portion, and a tension is generated in the securing device.

The tie rod preferably includes a plurality of mounting portions for the clamping screws. Since the mounting part can be formed as a bulge of a knob fixing device, the knob mounting of the clamping device can be performed by knob mounting of the clamping device so that rough adjustment of the fixing device length is possible, It can be engaged in a different position. The fine adjustment and tension of the securing device is carried out through the clamp screw and the threaded portion.

The present invention also relates to a method for stably holding a container wherein the first securing device is connected to the container edge of the first container stack and to the first connection retaining portion of the container conveyance, Since the securing device is connected to the container edge of the second container stack and to the second connection fixing portion of the container transportation line, the interval between the container edges is larger than the interval between the connection fixing portions. According to the invention, the two securing devices are connected such that the securing device crosses a vertical plane extending along a transverse gap between the two container stacks. The distance between the vertical surface and the connection fixing portion is smaller than the interval between the vertical surface and the container edge.

The method according to the invention can be carried out with further features described in connection with the fastening device according to the invention. The fixation device may be provided as another feature described in connection with the method according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention is described in detail below with reference to the following drawings in which:

Figure 1 shows a container transport line in side view;
FIG. 2 shows a state in which two adjacent container stacks are arranged on the front side,
Figure 3 shows an arrangement of four adjacent container stacks according to Figure 2,
Figure 4 shows an arrangement of a securing device according to the invention,
Figure 5 shows in detail the tie rod according to the invention,
Figure 6 shows in detail an alternative embodiment of a tie-rod according to the invention,
Figure 7 shows the tie rod according to Figure 6 in two different situations.

The loading chamber connected to the fuselage at the container transport line shown in the side view in Fig. 1 is closed upwards through the dock cover. One of the dock covers has 40ft. A container stack 14 with a standard container 16 is shown. Each container 16 in the container stack 14 is connected to the four corners of the container 16 located at the bottom through a twist lock. Lashing bridges 17 are arranged at the front and rear of the container stack 14, respectively. A securing device not shown in FIG. 1 may extend from the lashing bridge 17 toward the container stack 14, which is intended to inhibit the container stack 14 from being rolled over.

Figure 2 shows the container stack 14 and the front side of the second container stack 15 arranged next to this container stack. The upper edge of the lashing bridge 17 is generally connected to the upper end of the fourth container in the container stacks 14, Fig. 2 shows the fifth and sixth containers 16 in the container stacks 14, 15, which are arranged above the upper edge of the lashing bridge 17. Fig.

The first securing device 18 extends from the upper left corner of the fifth container in the first container stack 14 toward the first connection fixture 19 rigidly secured to the lashing bridge 17. The second securing device 20 extends from the upper right corner of the fifth container in the second container stack 15 toward the second connection fixture 21 rigidly secured to the lashing bridge 17. [

A transverse gap (22) is formed between the two container stacks (14, 15), the transverse gap extending longitudinally along the container stack (14, 15). The connection fixtures 19, 21 are arranged on two different sides of a vertical surface 23 extending along the transverse gap 22. Not only the first securing device 18 but also the second securing device 20 can intersect the vertical surface 23. Arranging the two securing devices 18, 20 in the adjacent container stacks 14, 15, as shown in Fig. 2, is referred to as intern lashing.

Unlike the above, FIG. 3 shows an embodiment of outer lashing. Two further container stacks 24 and 25 are provided between the first container stack 14 and the second container stack 15 fastened to the connection fixtures 19 and 21 through the securing devices 18 and 20, Is inserted. A vertical surface 23 extending along the transverse gap 22 between the container stacks 24 and 25 extends centrally between the two container stacks 14 and 15. The first connection fixing portion 19 is arranged on one side of the vertical surface 23 and the second connection fixing portion 21 is arranged on the other side of the vertical surface 23. [ The two securing devices (18, 20) cross the vertical plane (23).

Fig. 4 shows another embodiment of the outer lashing. 15 extending from the connection fixtures 27, 29 in addition to the two securing devices 18, 20 extending toward the upper edge of the fifth container in the container stacks 14, A plurality of securing devices 26, 28 are provided. The securing device 26 is connected to the bottom edge of the sixth container in the container stack 14 just above the securing device 18. The securing device 28 is connected to the lower edge of the sixth container in the container stack 15, just above the securing device 20.

Likewise, the two connection fixing portions 27 and 29 are arranged on two different sides of the vertical surface 23. [ Unlike the securing devices 18 and 20, the securing devices 26 and 28 are connected to the connection securing parts 27 and 29 so that these securing devices are not overlapped.

The connection fixtures (27, 29) form a second pair of connection fixtures arranged in the same longitudinal direction. Since the connection fixing portions 19 and 21 form the first pair of connection fixing portions which are arranged to be slightly shifted from each other in the longitudinal direction, the fixing devices 18 and 20 are provided so as to pass without interfering with each other. The connection fixing portions 19 and 21 are substantially wider than the connection fixing portions 27 and 29 in the transverse direction.

Each of the securing devices 18, 20, 26, and 28 is constituted identically to each other and is a component formed to have the same dimensions. Each of the securing devices has a fork portion 30 which surrounds the connection fixing portion and is fixed to the connection fixing portion through the socket pin 31. [ The threaded portion 32 is connected to the fork portion 30. The tightening with the container edge is carried out through the hook fastening portion 33 to which the tie rod 34 is connected (see Fig. 5). The tie rod 34 includes a plurality of knobs 35 formed as bulges and the knob is adjusted to fit the knob mounting portion 36 of the clamp screw 37. The length of the securing device can be roughly controlled through the selection of the knob 35 as defined. The knob mounting portion 36 is provided so that the clamp screw 37 can be rotated with respect to the securing device 28. Another end of the clamping screw 37 is provided with a female screw which can be adjusted to fit the threaded portion 32. The clamping screw 37 is tightened to the screw portion 32 to finely adjust the length of the securing device and tension of the securing device is generated.

Figure 6 shows an alternative embodiment of the securing device. At this time, the threaded portion 32 is not connected to the center of the fork portion 30, but moves in a lateral direction parallel to the socket pin 31. Thus, the positioning of the threaded portion 32 depends on how the fork portion 30 is connected to the connection fixing portion 19 in a certain direction. Fig. 7 shows two possibilities for the positioning of the threaded portion 32. Fig. According to this embodiment, the two securing devices 18 and 20 can be crossed with each other without the connecting fixtures 19 and 21 moving in the longitudinal direction with each other.

4 shows different vertical positions where the upper edge connection 40 of the fifth container and the lower edge connection 41 of the sixth container are located in a small container (height: 8 ft., 6 inch) It depends on the degree of stacking of containers (height: 9ft., 6inch). Depending on the number of small or large containers, six different vertical positions are provided for the corner connections 40, 41. The vertical distance between the lowest position and the highest possible position is 1525 mm.

20, 26 and 28 having a wide adjustment range can be provided so that all the container stacks can be stably fixed irrespective of the quantity of the large or small containers. At this time, the same connection fixing portions 19, 21, 27. 29) are used.

Figure 4 also shows two securing devices 42, 43, which are used for stable securing of the container stack 24 in a corresponding manner. There may be a risk that the mutual interference between the securing device 20 and the securing device 43 occurs, particularly when five small containers are stacked on the container stack 15 as well as the container stack 24. 43 is provided with a small angle in the horizontal direction and the clamping screws 37 of the two securing devices 20, 43 are provided at the lowest possible position in each container edge 40, ) May collide with each other. It is impossible for the clamp screw 37 to interfere with the two securing devices and to fix the securing devices 20 and 43 with the tension. Due to the arrangement according to the present invention relating to the connection fixing part, the collision of the clamping screws 37 is suppressed because the securing devices 20 and 43 have a wide gap with each other. This provides a securing device with a sufficiently wide adjustment range and ensures that all container stacks can be securely locked due to the securing device according to the invention which is formed uniformly.

16: Container
18: First fixing device
19: First connection fixture
20: Second securing device
21: second connection fixing portion

Claims (13)

As a fixing device for stably fixing the container 16,
The first container stack 14 includes a first securing device 18 extending from the container edge 12 to the first connection fixture 19 of the container transport and a second container stack 18 extending from the container edge 13 to the first connection fixture 19 of the container transport, And a second securing device 20 extending to the second securing section 21 wherein the spacing between the container edges 12,13 is greater than the spacing between the securing sections 19,21, In this case,
The two securing devices 18,20 intersect the vertical surface 23 extending along the transverse gap 22 between the two container stacks 24,25 and the vertical surface 23 and the connection fixture 19 , 21) is smaller than the vertical surface (23) and the container edges (12, 13). The method according to claim 1,
The third securing device 26 extends from the container edge of the first container stack 14 toward the third connection fixture 27 and the fourth securing device 28 extends from the container edge of the second container stack 15 11) toward the fourth connection fixing portion (29). 3. The method of claim 2,
Characterized in that the third securing device (26) and the fourth securing device (28) do not cross the vertical surface (23). 4. The method according to any one of claims 1 to 3,
Characterized in that the first connection fixing part (19) and the second connection fixing part (21) are arranged at different longitudinal points. 5. The method according to any one of claims 1 to 4,
Characterized in that the first connection fixing part (19) and the second connection fixing part (21) have the same spacing in the transverse direction with respect to the vertical surface (23). 6. The method according to any one of claims 2 to 5,
And the third connection fixing part (27) and the fourth connection fixing part (29) are arranged at the same longitudinal point. The method according to claim 6,
And the third connection fixing part (27) and the fourth connection fixing part (29) are arranged symmetrically with respect to the vertical plane (23). 8. The method according to any one of claims 2 to 7,
The lateral distance between the third connection fixing portion 27 and the fourth connection fixing portion 29 is smaller than the lateral distance between the first connection fixing portion 19 and the second connection fixing portion 21 . 9. The method according to any one of claims 2 to 8,
The first connection fixing portion 19 and the second connection fixing portion 21 are arranged in a direction perpendicular to the container stacks 14 and 15 from the third connection fixing portion 27 and the fourth connection fixing portion 29, 15). ≪ / RTI > 10. The method according to any one of claims 1 to 9,
Characterized in that the first container stack (14) and the second container stack (15) are arranged side by side. 10. The method according to any one of claims 1 to 9,
Characterized in that the first container stack (14) and the second container stack (15) have two further container stacks (24, 25) inserted between the container stacks described above. 12. The method according to any one of claims 1 to 11,
And a fork portion 30 defined for fastening the securing devices 18, 20, 26 and 28 to the connection fixing portions 19, 21, 27 and 29. The container edges 10, 11, 12, 13) is connected to the fork portion (30) in an eccentric manner. As a method for stably fixing the container 16,
The first securing device 18 is connected to the container edge 12 of the first container stack 14 and the first connection fixture 19 of the container transport and the second securing device 20 is connected to the second container stack 12 The interval between the container edges 12 and 13 is wider than the interval between the connection fixing portions 19 and 21 because the container edges 13 and 15 are connected to the second connection fixing portion 21 of the container transportation line As a result,
The securing device comprises a plurality of container stacks (24, 25) intersecting a vertical surface (23) extending along a transverse gap (23) between the vertical surfaces (23) Is smaller than the spacing between the vertical surface (23) and the container edges (12, 13).

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